CN215272530U - Mop bucket for electric mop - Google Patents

Abstract

The utility model discloses a mop bucket for electric mop, including electric mop and the staving that is used for flourishing water that matches with it, be provided with the washing wringing unit in the staving, the washing wringing unit is used for the washing of mop unit and the wringing after the washing, the flourishing water position in the staving forms flourishing water space, the washing wringing unit sets up in flourishing water space, and when electric mop's mop body and mop pole cooperation target in place, the washing wringing unit with mop unit contact, washing wringing unit and mop unit equidirectional rotation drive the clear water in the flourishing water space to mop unit, in order to realize to the washing of mop unit; the cleaning wringing units are provided with a plurality of cleaning wringing units, and the rotating directions of the adjacent cleaning wringing units are opposite. The automatic cleaning and wringing of the mop unit after use, especially the large-area cleaning range, is realized by the motor in the electric mop and the rotation and vibration of the mop unit during work and the cleaning wringing unit.

Description

Mop bucket for electric mop

Technical Field

The utility model belongs to the technical field of daily washing is with little household electrical appliances, especially, relate to a mop bucket for electric mop.

Background

Mopping the floor is always the most annoying housework of people, namely aching waist and back pain or sweat streaming down the back, the society develops rapidly nowadays, in order to help the public to solve the annoying housework of mopping the floor more conveniently, a sweeping robot, a dust collector, an electric mop and the like are pushed out in succession, wherein the electric mop is one of the most popular cleaning appliances.

The electric mop has the greatest advantages that the electric mop can be used for mopping the floor easily, the mop head is driven to rotate by the internal motor to achieve a cleaning effect, when the electric mop is used for mopping the floor, only one hand is needed to control the direction of the mop head, the user can play a mobile phone while mopping the floor easily, in addition, the floor can be mopped cleanly only by mopping the floor three or four times, the mopping step is complicated, the electric mop is used for mopping the floor in a rotating or vibrating mode, the friction force to the floor is larger, the cleaning degree is easier and the cleaning effect is better than that of a common mop, some electric mops can be used for waxing the floor by replacing mop cloth units, and some electric mops can be used for wiping windows, ceilings and the like, and multiple functions are selected; the electric mop has the advantages that the mop is cleaned in the market at present, the mop is cleaned by taking down the mop cloth unit, the use is very inconvenient, and the automatic cleaning and water squeezing effects of the mop cloth unit are not realized; meanwhile, when the mop unit is large or the cleaning range is large, the cleaning of the mop unit is very complicated, and the workload is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electric mop is with mop bucket utilizes the motor among the electric mop to and the rotation and the vibrations of mop unit in the work, through wasing the wringing unit, realized the self-cleaning and/or the wringing after the mop unit uses, especially the clean scope of large tracts of land.

In order to realize the technical effect, the utility model discloses a following technical scheme realizes.

The utility model provides an electric mop is with mop bucket, includes electric mop and the staving that is used for flourishing water that matches with it, be provided with the washing wringing unit in the staving, electric mop includes the mop unit, wash the wringing unit and be used for the washing of mop unit and the wringing after the washing, wherein, flourishing water position in the staving forms flourishing water space, wash wringing unit sets up in flourishing water space, works as the mop body with when the mop bucket cooperates the position, wash wringing unit with mop unit contacts, wash wringing unit with mop unit equidirectional rotation drives rivers extremely in the flourishing water space mop unit, it is right to realize the washing of mop unit.

In the technical scheme, the cleaning and water squeezing unit can drive clear water to move when rotating in the cleaning process, so that water can act on the mop cloth unit, meanwhile, the mop cloth unit acts force, the effect similar to that of a common mop is achieved, and a user manually squeezes a mop sponge; when the water in the barrel body is less, the water in the barrel body can not contact the mop cloth unit assembly in a static state, but can move upwards when external force is applied (namely, the movement of the cleaning squeezing unit), so that the effect of contacting the mop cloth unit assembly is achieved.

Among this technical scheme, wash crowded water unit and mop unit equidirectional motion, and then wash between crowded water unit and the mop unit, the friction is little, and the rivers of washing usefulness also can rotate along the syntropy, can prevent splashing of rivers, avoid the friction. In the technical scheme, the mop can be driven by the movement of the mop unit in the same direction, and the whole process can be driven by the arrangement of the motor in the barrel body in addition.

In the technical scheme, the cleaning and water squeezing unit directly sends water to the mop unit without shielding by other structural members, so that the mop unit is fully contacted with the water, and the cleaning is cleaner.

As a further improvement of the utility model, when the mop unit reversely rotates, the mop unit and the cleaning wringing unit generate relative motion, and the cleaning wringing unit realizes wringing of the cleaning mop unit.

In the technical scheme, when water is squeezed, the cleaning and water squeezing unit firstly rotates reversely and then stops, the cleaning and water squeezing unit keeps static, the mop cloth unit continues rotating, the rotating mop cloth unit is in contact with the static cleaning and water squeezing unit, water on the mop cloth unit is scraped away by utilizing friction generated by one motion and one static state, and water squeezing is realized.

As a further improvement of the utility model, the cleaning and water squeezing unit comprises a rotating unit, when the mop body contacts with the rotating unit, the rotating unit rotates under the driving of the mop unit.

Among this technical scheme, utilize the rotation that rotates the unit, realize the washing to the mop unit, utilize simultaneously to rotate the unit and stop, the mop unit continues to rotate to realize the extruded function of friction, and then can accomplish whole mop unit and wash the back moisture and get the wringing. The cleaning and water squeezing unit is driven to rotate by the rotation of the mop cloth unit, so that the driving unit is reduced, the cost is low, the weight of the mop bucket can be reduced, a waterproof structure is not required to be arranged in the mop bucket, and the structure is simpler; and the synchronous rotation of the cleaning and water squeezing unit and the mop unit can be realized, the rotating speed error between the cleaning and water squeezing unit and the mop unit is reduced, and the water flow is prevented from splashing.

As the utility model discloses must further improve, wash crowded water unit still including be used for with the rotation unit rotates the support unit of being connected, the rotation unit is enclosing the support unit motion.

Among this technical scheme, the increase of support unit, aim at realize rotating the fixed and support of unit, and then in the rotation, whole rotation unit is stable, and process stability is good, can not cause the scheduling problem that rocks, and the use security is higher.

As a further development of the invention, the rotation unit abuts against the mop unit, the rotation axis of the rotation unit being extended to form the rotation axis of the mop unit.

In the technical scheme, the two rotation axes are positioned on the same straight line, so that the mop unit is favorably and uniformly wetted by water in the bucket body in rotation, namely the water in the bucket body rotates along the rotation axes to enter the mop unit, and the water is uniformly sprayed upwards in the rotation process.

As a further improvement of the present invention, the rotating unit includes a plurality of blades, and the blades form a curved structure with a radian when viewed from the mop unit toward the lower side of the barrel body, and protrude outward in the opposite direction to the rotating direction of the rotating unit.

Among this technical scheme, form the curve structure, can make during the rivers move along the curve, rivers are slower, and the evagination of curve structure for during the blade is rotatory, can produce centrifugal force, the evagination structure forms the delay action to centrifugal force this moment, makes rivers homodisperse on centrifugal force and evagination structure, makes the atress of mop bucket water even, produces the probability that splashes when reducing rivers and colliding the blade.

As a further improvement of the utility model, the cleaning wringing units are provided with a plurality of cleaning wringing units, and the rotating directions of the adjacent cleaning wringing units are opposite.

Among this technical scheme, set up a plurality of washing wringing units, can act on a plurality of mop units simultaneously, and every washs wringing unit and acts on a mop unit, conveniently washs a plurality of mop units simultaneously, improves whole cleaning efficiency, especially to public region's such as official working cleanness, the mop sets up a plurality of mop units, and every mop unit corresponds a washing wringing unit, and efficiency is higher. In practical use, during cleaning, the cleaning and squeezing unit and the mop cloth unit rotate together, and the cleaning and squeezing unit drives water flow to move, so that water is fully contacted with the mop cloth unit, and cleaning is realized. The rotation directions are opposite, so that the interference of water flow in the mop bucket is reduced, and the probability of water splashing is reduced.

As a further improvement, be equipped with the water conservancy diversion spare in the staving, the water conservancy diversion spare is located adjacent two wash between the crowded water unit, the water conservancy diversion spare makes the periphery of wasing crowded water unit form convex edge, and this convex edge with the radian of the rotatory orbit of wasing crowded water unit is the same.

Among this technical scheme, through the water conservancy diversion spare between the adjacent crowded water unit that washs, can carry out the water conservancy diversion to rivers in the barrel, the convex edge of cooperation can reduce the interference between the two strands of rivers that are driven by two clean crowded water units, reduces or prevents that rivers from splashing, improves the utilization ratio of water.

As a further improvement, the water conservancy diversion spare will staving internal partitioning becomes purge zone and buffers, be equipped with the water inlet on the water conservancy diversion spare, when wasing mop unit the water in the purge zone passes through the water inlet gets into the buffers.

In the technical scheme, when the water in the cleaning area is excessive, the water can enter the buffer area to prevent the water from overflowing; particularly, when the mop unit is cleaned, part of water flow which collides with the flow guide piece can enter the buffer area through the water inlet, so that the water flow is further prevented from splashing; in addition, the buffer zone can also be used for containing cleaning agents, so that deep cleaning is realized.

As a further improvement of the utility model, the height of the cleaning and wringing unit is H, the height of the barrel body is H, and H/H is not less than 0.4 and not more than 0.8.

Among this technical scheme, the height that washs crowded water unit is less than the half of staving height, but is less than the staving height, on the one hand, if too low, then wash crowded water scope is little, is difficult to high-efficient completion and washs crowded water, if too high, arrives the staving height soon, then in use, in case highly too high, then lead to the rivers overflow easily, rivers play, cause the waste, and need carry out the secondary clearance to ground. The parameter range can enable the cleaning wringing unit to drive water in the barrel body to effectively wet and clean the mop unit, and reduce the water to flush out of the mop barrel to the maximum extent.

Drawings

FIG. 1 is a schematic structural view of a mop bucket for an electric mop according to the present invention;

FIG. 2 is an assembly view of the mop bucket for an electric mop according to the present invention;

FIG. 3 is a cross-sectional view of a mop bucket for an electric mop provided by the present invention;

FIG. 4 is a view showing a state of use of the mop bucket for an electric mop according to the present invention;

in the figure:

100. a barrel body; 110. a water containing space; 120. a separator plate; 200. cleaning the water squeezing unit; 210. a rotating unit; 220. a holder unit; 211. a blade; 300. an electric mop; 310. a mop body; 320. a tow bar; 330. a mop unit; 400. a flow guide member; 410. a water inlet; A. a cleaning zone; B. a buffer area.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Example 1

In the embodiment, a core component of the mop bucket for the automatic mop is mainly introduced.

In the embodiment, a mop bucket for electric mop, the staving that is used for flourishing water that includes electric mop and matches with it, be provided with the washing wringing unit in the staving, electric mop includes the mop unit, washing wringing unit is used for the washing of mop unit and the wringing after the washing, wherein, flourishing water position in the staving forms flourishing water space, washing wringing unit sets up in flourishing water space, works as the mop body with when mop bucket cooperates the position, wash wringing unit with mop unit contact, wash wringing unit with mop unit equidirectional rotation drives rivers extremely in the flourishing water space mop unit, it is right to realize the washing of mop unit.

In the embodiment, the cleaning and water squeezing unit can drive clear water to move when rotating in the cleaning process, so that water can act on the mop cloth unit, meanwhile, the mop cloth unit acts force, the effect similar to that of a common mop is achieved, and a user manually squeezes a mop sponge; when the water in the barrel body is less, the water in the barrel body can not contact the mop cloth unit assembly in a static state, but can move upwards when external force is applied (namely, the movement of the cleaning squeezing unit), so that the effect of contacting the mop cloth unit assembly is achieved.

In this embodiment, wash crowded water unit and mop unit equidirectional motion, and then wash between crowded water unit and the mop unit, the friction is little, and the rivers of washing usefulness also can rotate along the syntropy, can prevent splashing of rivers, avoid the friction. In this embodiment, the rotation in the same direction can be driven by the movement of the mop unit on the one hand, and on the other hand, the whole process can be driven by arranging a motor in the barrel body.

In the embodiment, the cleaning and water squeezing unit directly sends water to the mop unit without being shielded by other structural members, so that the mop unit is fully contacted with the water, and the cleaning is cleaner

Example 2

In this embodiment, the description is mainly given by rotation.

Referring to fig. 1-4, in the present embodiment, a mop bucket for an electric mop includes an electric mop and a bucket body 100 for containing water, a cleaning and squeezing unit 200 is disposed in the bucket body 100, the cleaning and squeezing unit 200 is used for cleaning a mop unit and squeezing water after cleaning, a water containing space 110 is formed at a water containing position in the bucket body 100, the cleaning and squeezing unit 200 is disposed in the water containing space 110, as shown in fig. 4, in the present embodiment, a mop body 310 of the electric mop 300 is connected to a mop rod 320, a mop cloth unit 330 is disposed below the mop body 310, when the mop body 310 of the electric mop 300 is matched with the mop bucket, the cleaning and squeezing unit 200 contacts the mop cloth unit 330, the cleaning and squeezing unit 200 and the mop cloth unit 330 rotate in the same direction, and clean water in the water containing space 110 is driven to flow to the mop cloth unit 330, to effect cleaning of the swab unit 330; the washing wringing units 200 are provided in plurality, and the rotation directions of the adjacent washing wringing units 200 are opposite.

Further, when the mop unit 330 rotates reversely, the mop unit 330 and the washing and squeezing unit 200 move relatively to each other, and the washing and squeezing unit 200 squeezes the washed mop unit 330.

In the embodiment, when water is squeezed, the cleaning and water squeezing unit rotates reversely and then stops, the cleaning and water squeezing unit keeps static, the mop cloth unit continues to rotate, the rotating mop cloth unit is in contact with the static cleaning and water squeezing unit, and water on the mop cloth unit is scraped away by friction generated by one motion and one static state, so that water squeezing is realized.

Referring to fig. 1 to 3, the washing and wringing unit 200 includes a rotating unit 210, and the rotating unit 210 is rotated by the mop unit 330 when the mop body 310 is in contact with the rotating unit 210. The cleaning and water squeezing unit is driven to rotate by the rotation of the mop cloth unit, so that the driving unit is reduced, the cost is low, the weight of the mop bucket can be reduced, a waterproof structure is not required to be arranged in the mop bucket, and the structure is simpler; and the synchronous rotation of the cleaning and water squeezing unit and the mop unit can be realized, the rotating speed error between the cleaning and water squeezing unit and the mop unit is reduced, and the water flow is prevented from splashing.

In this embodiment, utilize the rotation of rotation unit, realize the washing to the mop unit, utilize simultaneously to rotate the unit and stop, the mop unit continues to rotate to realize the extruded function of friction, and then can accomplish whole mop unit and wash the back moisture and get the wringing.

Further, the washing and wringing unit 200 further comprises a bracket unit 220 for rotatably connecting with the rotating unit 210, and the rotating unit 210 moves around the bracket unit 220.

In this embodiment, the increase of support unit, aim at realize rotating the fixed and support of unit, and then in the rotation, whole rotation unit is stable, and process stability is good, can not cause the scheduling problem of rocking, and the use security is higher.

Further, the rotation unit 210 abuts against the mop unit 330 for better water flow transmission, and the rotation axis of the rotation unit 210 is extended to form the rotation axis of the mop unit 330.

In the embodiment, the two rotation axes are positioned on the same straight line, so that the mop unit is uniformly wetted by water in the bucket body in rotation, namely the water in the bucket body rotates along the rotation axes to enter the mop unit, and the water is uniformly sprayed upwards in rotation.

Example 3

In this embodiment, the rotation unit is mainly described.

Referring to fig. 1 to 3, further, the rotating unit 210 includes a plurality of blades 211, and the blades 211 are formed in a curved structure with a curvature when viewed from the mop unit 330 toward the lower side of the tub, and are protruded outwardly in a direction opposite to the rotating direction of the rotating unit 210.

In the embodiment, the curve structure is formed, so that water can move along a curve in the water flow, the water flow is slow, the curve structure protrudes outwards, the blades can generate centrifugal force in the rotation process, the protruding structure forms a delay effect on the centrifugal force, the water flow is uniformly dispersed on the centrifugal force and the protruding structure, the water in the mop bucket is uniformly stressed, and the probability of splashing when the water flow collides with the blades is reduced.

In this embodiment, still can be equipped with division board 120 in the staving, division board 120 makes the periphery of washing crowded water unit 200 form convex edge, increases the division board, can make and separate each other between each washing crowded water unit 200, satisfies the even outflow of rivers simultaneously.

Further, the cleaning wringing units are provided with a plurality of cleaning wringing units, and the rotating directions of the adjacent cleaning wringing units are opposite.

Among this technical scheme, set up a plurality of washing wringing units, can act on a plurality of mop units simultaneously, and every washs wringing unit and acts on a mop unit, conveniently washs a plurality of mop units simultaneously, improves whole cleaning efficiency, especially to public region's such as official working cleanness, the mop sets up a plurality of mop units, and every mop unit corresponds a washing wringing unit, and efficiency is higher. In practical use, during cleaning, the cleaning and squeezing unit and the mop cloth unit rotate together, and the cleaning and squeezing unit drives water flow to move, so that water is fully contacted with the mop cloth unit, and cleaning is realized. The rotation directions are opposite, so that the interference of water flow in the mop bucket is reduced, and the probability of water splashing is reduced. The flow guide piece 400 is arranged in the barrel body 100, the flow guide piece 400 is positioned between two adjacent cleaning wringing units 200, the flow guide piece 400 enables the peripheries of the cleaning wringing units 200 to form arc-shaped edges, and the arc-shaped edges are the same as the radian of the rotating track of the cleaning wringing units 200.

Among this technical scheme, through the water conservancy diversion spare between the adjacent crowded water unit that washs, can carry out the water conservancy diversion to rivers in the barrel, the convex edge of cooperation can reduce the interference between the two strands of rivers that are driven by two clean crowded water units, reduces or prevents that rivers from splashing, improves the utilization ratio of water.

Further, the inside of the tub 100 is divided into a cleaning area a and a buffer area B by the guide member 400, the guide member 400 is provided with a water inlet 410, and water in the cleaning area a enters the buffer area B through the water inlet 410 when the mop unit 330 is cleaned.

In the embodiment, when the water in the cleaning area is excessive, the water can enter the buffer area to prevent the water from overflowing; particularly, when the mop unit is cleaned, part of water flow which collides with the flow guide piece can enter the buffer area through the water inlet, so that the water flow is further prevented from splashing; in addition, the buffer zone can also be used for containing cleaning agents, so that deep cleaning is realized.

In actual use, the mop unit 330 is rotated in the opposite direction, and the washing and wringing unit 200 is kept stationary to accomplish wringing of the mop unit 330.

In the embodiment, the mop unit can be reversed, and the cleaning and squeezing unit is kept still; or the cleaning wringing unit can be kept still after the mop unit is driven to rotate reversely for a certain number of turns when the mop unit rotates reversely.

Furthermore, the height of the cleaning and water squeezing unit is H, the height of the barrel body is H, and H/H is more than or equal to 0.4 and less than or equal to 0.8.

In this embodiment, the height that washs crowded water unit is less than half of staving height, but is less than the staving height, on the one hand, if too low, then wash crowded water scope is little, is difficult to high-efficient completion wash crowded water, if too high, reaches the staving height soon, then in use, in case highly too high, then leads to rivers overflow easily, and rivers play, cause the waste, and need carry out the secondary clearance to ground. The parameter range can enable the cleaning wringing unit to drive water in the barrel body to effectively wet and clean the mop unit, and reduce the water to flush out of the mop barrel to the maximum extent.

Example 4

In this embodiment, description is made based on actual use.

Referring to fig. 1 to 4, the mop bucket for the electric mop in this embodiment includes an electric mop 300, the electric mop 300 includes a mop body 310, a mop rod 320 and a mop cloth unit 330, and in use, the mop cloth unit 330 is driven to rotate by a power unit, such as a motor, so as to achieve an electric mopping effect; the tub 100 is mainly matched with the mop cloth unit 330 of the electric mop, and a plurality of washing wringing units 200 may be provided, and each washing wringing unit 200 corresponds to one mop cloth unit 330, so as to implement one-to-one washing wringing.

Further, referring to fig. 3, the rotated unit 210 includes a plurality of blades 211, and the blades 211 form a curved structure with a curvature when viewed from the mop unit 330 downward.

In the embodiment, the curve structure is arranged, so that the curve is easier to generate compared with a straight line, centrifugal force and the like in rotation, the action of force is more uniform in cleaning and squeezing, and the cleaning and squeezing effects are good; meanwhile, compared with a linear structure, the curved structure has the advantages of moderate force, small extrusion force, small force during cleaning, small abrasion to the mop unit and prolonged service life.

In this embodiment, cooperation cask subassembly, during the use, full water in the cask subassembly, the mop unit is put into the back, opens mop unit cleaning mode, and then the mop unit rotates in the cask subassembly, drives the washing of realizing in the cask and wrings.

Further, the height of the water tub assembly 400 is 50-100 mm.

In this embodiment, the height of cask subassembly need not to set up too high, and then can save space, and simultaneously, the cask is not very high, is convenient for pour out, and among the prior art, the cask of some mops is too high, leads to pouring water certain problem to appear, still spills water easily.

Further, a partition plate 120 is further disposed in the tub 100, and the partition plate 120 forms a circular arc-shaped edge on the outer circumference of the washing and wringing unit 200.

In this embodiment, set up arc edge, and then whole centrifugal force and rotation all can go on in the circular arc region, improve the effect that centrifugal force produced for the power that the rotation produced is more appropriate, and the utilization of power is better.

The utility model discloses in, through cooperation mop and cask, set up the impeller that the blade constitutes in the cask, and then in mop unit automatic rotation, can cooperate the impeller to rotate, with water under centrifugal force and cask effect, spill to mop unit, realize the cleanness of mop unit, and when not having water, through mop unit and impeller assembly's rotation, throw away water from mop unit again through centrifugal force to realize crowded water.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides an electric mop is with mop bucket, includes electric mop and the staving that is used for flourishing water that matches with it, be provided with the washing wringing unit in the staving, electric mop includes the mop unit, wash the wringing unit and be used for the washing of mop unit and the wringing after wasing, a serial communication port, flourishing water position in the staving forms flourishing water space, wash wringing unit sets up in flourishing water space, works as the mop body with when mop bucket cooperates the position, wash wringing unit with mop unit contact, wash wringing unit with mop unit equidirectional rotation drives rivers extremely in the flourishing water space the mop unit, it is right to realize the washing of mop unit.

2. The mop bucket according to claim 1, wherein the mop unit rotates in a reverse direction, so that the mop unit and the washing and squeezing unit move relatively to each other, and the washing and squeezing unit squeezes the washed mop unit.

3. The mop bucket for an electric mop according to claim 1 or 2, wherein the washing wringing unit includes a rotating unit, and the rotating unit is rotated by the mop unit when the mop body is brought into contact with the rotating unit.

4. The mop bucket for an electric mop of claim 3, wherein the washing wringing unit further comprises a holder unit for rotatably connecting with the rotating unit, the rotating unit moving around the holder unit.

5. The mop bucket for an electric mop according to claim 4, wherein the rotation unit abuts against the mop cloth unit, and a rotation axis of the rotation unit is extended to form a rotation axis of the mop cloth unit.

6. The mop bucket for an electric mop according to claim 3, wherein the rotating unit includes a plurality of blades, which form a curved structure with an arc when viewed from below the bucket body along the mop unit and are convex in a direction opposite to a rotating direction of the rotating unit.

7. The mop bucket for an electric mop as claimed in claim 1, wherein the cleaning wringing units are provided in plural, and the rotation directions of adjacent cleaning wringing units are opposite.

8. The mop bucket for the electric mop as claimed in claim 7, wherein a flow guide member is disposed in the bucket body, the flow guide member is located between two adjacent cleaning wringing units, the flow guide member enables the outer peripheries of the cleaning wringing units to form an arc-shaped edge, and the arc-shaped edge has the same radian as the rotation track of the cleaning wringing units.

9. The mop bucket according to claim 8, wherein the guide member divides the interior of the bucket body into a cleaning region and a buffer region, the guide member having a water inlet through which water in the cleaning region enters the buffer region when the mop unit is cleaned.

10. The mop bucket for the electric mop as claimed in claim 1, wherein the height of the washing and wringing unit is H, the height of the bucket body is H, and H/H is greater than or equal to 0.4 and less than or equal to 0.8.

Images